A synthesis of purified aluminum fluoride powder by atmospheric microwave-plasma torch

被引:1
|
作者
Cho, Soon Cheon [1 ]
Hong, Yong Cheol [1 ,2 ]
Uhm, Han Sup [1 ]
机构
[1] Ajou Univ, Dept Mol Sci & Technol, Suwon 443749, South Korea
[2] Total Works Korea Co Ltd, Plasma Lab, Seoul 135010, South Korea
来源
JAPANESE JOURNAL OF APPLIED PHYSICS | 2008年 / 47卷 / 01期
关键词
aluminum fluoride; nanoparticles; atmospheric; microwave plasma;
D O I
10.1143/JJAP.47.297
中图分类号
O59 [应用物理学];
学科分类号
摘要
Synthesis of aluminum fluoride (AlF(3)) powder by direct evaporation of aluminum (At) granules in an atmospheric microwave-plasma torch demonstrates a possibility of a direct continuous preparation. The solid-phase At granules are injected axially by Ar gas. H(2), CF(4), and N(2) as a swirl gas are used for fluorination of At granule and plasma stabilization. The as-produced samples were characterized by X-ray diffraction (XRD) and Fourier transform infrared (FTIR). The average crystal size obtained front the Williamson-Hall plot was approximately 37 nm. The surface area and pore distribution properties of the particles were also analyzed by making use of the nitrogen absorption method.
引用
收藏
页码:297 / 300
页数:4
相关论文
共 50 条
  • [31] Spectroscopic Investigation of a Microwave-Generated Atmospheric Pressure Plasma Torch
    Leins, M.
    Walker, M.
    Schulz, A.
    Schumacher, U.
    Stroth, U.
    CONTRIBUTIONS TO PLASMA PHYSICS, 2012, 52 (07) : 615 - 628
  • [32] Decomposition of phosgene by microwave plasma-torch generated at atmospheric pressure
    Hong, YC
    Uhm, HS
    Kim, HS
    Kim, MJ
    Han, SH
    Ko, SC
    Park, SK
    IEEE TRANSACTIONS ON PLASMA SCIENCE, 2005, 33 (02) : 958 - 963
  • [33] Spectroscopic investigations of atmospheric pressure microwave torch nitrogen plasma jet
    Foltin, V.
    Lestinska, L.
    Machala, Z.
    CZECHOSLOVAK JOURNAL OF PHYSICS, 2006, 56 : B712 - B720
  • [34] Atmospheric-Pressure Reverse-Vortex Microwave Plasma Torch
    Lavrov, Boris P.
    Lavrov, Pavel B.
    Ravaev, Alexander A.
    Esakov, Igor I.
    Matveev, Igor B.
    Kirchuk, Eugene Yu.
    IEEE TRANSACTIONS ON PLASMA SCIENCE, 2011, 39 (12) : 3314 - 3318
  • [35] Synthesis of molybdenum carbide superconducting compounds by microwave-plasma chemical vapor deposition
    Zhao, Hongyang
    Cai, Kang
    Ma, Zhibin
    Cheng, Zhenxiang
    Jia, Tingting
    Kimura, Hideo
    Fu, Qiuming
    Tao, Hong
    Xiong, Liwei
    JOURNAL OF APPLIED PHYSICS, 2018, 123 (05)
  • [36] Improving the flowability of fine WC-12Co powder using atmospheric pressure nitrogen microwave plasma torch treatment
    Yang, Geon Woo
    Chun, Se Min
    Jeong, Sang Yun
    Hong, Yong Cheol
    POWDER TECHNOLOGY, 2023, 425
  • [37] Synthesis of carbon nanotubes by plasma-enhanced chemical vapor deposition in an atmospheric-pressure microwave torch
    Zajickova, Lenka
    Jasek, Ondrej
    Elias, Marek
    Synek, Petr
    Lazar, Lukas
    Schneeweiss, Oldrich
    Hanzlikova, Renata
    PURE AND APPLIED CHEMISTRY, 2010, 82 (06) : 1259 - 1272
  • [38] Atmospheric pressure microwave plasma for aluminum surface cleaning
    Bonova, Lucia
    Zhu, Weikun
    Patel, Dhruval K.
    Krogstad, Daniel V.
    Ruzic, David N.
    JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A, 2020, 38 (02):
  • [39] Investigation of a Novel Atmospheric Pressure Microwave Cold Plasma Torch and Its Characteristics
    Li, Yarui
    Bai, Yiwen
    Yu, Dengjie
    Wang, Rongyao
    Mu, Ying
    Jin, Wei
    Yu, Bingwen
    CHEMICAL RESEARCH IN CHINESE UNIVERSITIES, 2024, 40 (06) : 1282 - 1289
  • [40] An atmospheric pressure waveguide-fed microwave plasma torch: the TIA design
    Moisan, M.
    Sauve, G.
    Zakrzewski, Z.
    Hubert, J.
    PLASMA SOURCES SCIENCE & TECHNOLOGY, 1994, 3 (04): : 584 - 592
12345